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<h1><a href="cloudbilling_v1beta.html">Cloud Billing API</a> . <a href="cloudbilling_v1beta.billingAccounts.html">billingAccounts</a> . <a href="cloudbilling_v1beta.billingAccounts.skus.html">skus</a> . <a href="cloudbilling_v1beta.billingAccounts.skus.prices.html">prices</a></h1>
<h2>Instance Methods</h2>
<p class="toc_element">
  <code><a href="#close">close()</a></code></p>
<p class="firstline">Close httplib2 connections.</p>
<p class="toc_element">
  <code><a href="#list">list(parent, currencyCode=None, pageSize=None, pageToken=None, x__xgafv=None)</a></code></p>
<p class="firstline">Lists the latest prices for SKUs available to your Cloud Billing account.</p>
<p class="toc_element">
  <code><a href="#list_next">list_next()</a></code></p>
<p class="firstline">Retrieves the next page of results.</p>
<h3>Method Details</h3>
<div class="method">
    <code class="details" id="close">close()</code>
  <pre>Close httplib2 connections.</pre>
</div>

<div class="method">
    <code class="details" id="list">list(parent, currencyCode=None, pageSize=None, pageToken=None, x__xgafv=None)</code>
  <pre>Lists the latest prices for SKUs available to your Cloud Billing account.

Args:
  parent: string, Required. To list all Billing Account SKUs, use `-` as the SKU ID. Format: `billingAccounts/{billing_account}/skus/-` Note: Specifying an actual SKU resource id will return a collection of one Billing Account Price. (required)
  currencyCode: string, Optional. ISO-4217 currency code for the price. If not specified, currency of billing account will be used.
  pageSize: integer, Optional. Maximum number of billing account price to return. Results may return fewer than this value. Default value is 50 and maximum value is 5000.
  pageToken: string, Optional. Page token received from a previous ListBillingAccountPrices call to retrieve the next page of results. If this field is empty, the first page is returned.
  x__xgafv: string, V1 error format.
    Allowed values
      1 - v1 error format
      2 - v2 error format

Returns:
  An object of the form:

    { # Response message for ListBillingAccountPrices.
  &quot;billingAccountPrices&quot;: [ # The returned billing account prices.
    { # Encapsulates the latest price for a billing account SKU.
      &quot;currencyCode&quot;: &quot;A String&quot;, # ISO-4217 currency code for the price.
      &quot;name&quot;: &quot;A String&quot;, # Resource name for the latest billing account price.
      &quot;priceReason&quot;: { # Encapsulates a price reason which contains background information about the origin of the price. # Background information on the origin of the price.
        &quot;defaultPrice&quot;: { # Encapsulates a default price which is the current list price. # Default price which is the current list price.
        },
        &quot;fixedDiscount&quot;: { # Encapsulates a discount off the list price, anchored to the list price as of a fixed time. # Discount off the list price, anchored to the list price as of a fixed time.
          &quot;discountPercent&quot;: { # A representation of a decimal value, such as 2.5. Clients may convert values into language-native decimal formats, such as Java&#x27;s [BigDecimal](https://docs.oracle.com/en/java/javase/11/docs/api/java.base/java/math/BigDecimal.html) or Python&#x27;s [decimal.Decimal](https://docs.python.org/3/library/decimal.html). # Percentage of the fixed discount.
            &quot;value&quot;: &quot;A String&quot;, # The decimal value, as a string. The string representation consists of an optional sign, `+` (`U+002B`) or `-` (`U+002D`), followed by a sequence of zero or more decimal digits (&quot;the integer&quot;), optionally followed by a fraction, optionally followed by an exponent. An empty string **should** be interpreted as `0`. The fraction consists of a decimal point followed by zero or more decimal digits. The string must contain at least one digit in either the integer or the fraction. The number formed by the sign, the integer and the fraction is referred to as the significand. The exponent consists of the character `e` (`U+0065`) or `E` (`U+0045`) followed by one or more decimal digits. Services **should** normalize decimal values before storing them by: - Removing an explicitly-provided `+` sign (`+2.5` -&gt; `2.5`). - Replacing a zero-length integer value with `0` (`.5` -&gt; `0.5`). - Coercing the exponent character to upper-case, with explicit sign (`2.5e8` -&gt; `2.5E+8`). - Removing an explicitly-provided zero exponent (`2.5E0` -&gt; `2.5`). Services **may** perform additional normalization based on its own needs and the internal decimal implementation selected, such as shifting the decimal point and exponent value together (example: `2.5E-1` &lt;-&gt; `0.25`). Additionally, services **may** preserve trailing zeroes in the fraction to indicate increased precision, but are not required to do so. Note that only the `.` character is supported to divide the integer and the fraction; `,` **should not** be supported regardless of locale. Additionally, thousand separators **should not** be supported. If a service does support them, values **must** be normalized. The ENBF grammar is: DecimalString = &#x27;&#x27; | [Sign] Significand [Exponent]; Sign = &#x27;+&#x27; | &#x27;-&#x27;; Significand = Digits &#x27;.&#x27; | [Digits] &#x27;.&#x27; Digits; Exponent = (&#x27;e&#x27; | &#x27;E&#x27;) [Sign] Digits; Digits = { &#x27;0&#x27; | &#x27;1&#x27; | &#x27;2&#x27; | &#x27;3&#x27; | &#x27;4&#x27; | &#x27;5&#x27; | &#x27;6&#x27; | &#x27;7&#x27; | &#x27;8&#x27; | &#x27;9&#x27; }; Services **should** clearly document the range of supported values, the maximum supported precision (total number of digits), and, if applicable, the scale (number of digits after the decimal point), as well as how it behaves when receiving out-of-bounds values. Services **may** choose to accept values passed as input even when the value has a higher precision or scale than the service supports, and **should** round the value to fit the supported scale. Alternatively, the service **may** error with `400 Bad Request` (`INVALID_ARGUMENT` in gRPC) if precision would be lost. Services **should** error with `400 Bad Request` (`INVALID_ARGUMENT` in gRPC) if the service receives a value outside of the supported range.
          },
          &quot;discountScopeType&quot;: &quot;A String&quot;, # Type of the fixed discount scope which indicates the source of the discount. It can have values such as &#x27;unspecified&#x27; and &#x27;sku-group&#x27;.
          &quot;fixTime&quot;: &quot;A String&quot;, # Time that the fixed discount is anchored to.
          &quot;skuGroup&quot;: &quot;A String&quot;, # SKU group where the fixed discount comes from.
        },
        &quot;fixedPrice&quot;: { # Encapsulates a set fixed price applicable during the terms of a contract agreement. # Fixed price applicable during the terms of a contract agreement.
        },
        &quot;floatingDiscount&quot;: { # Encapsulates a discount off the current list price, not anchored to any list price as of a fixed time. # Discount off the current list price, not anchored to any list price as of a fixed time.
          &quot;discountPercent&quot;: { # A representation of a decimal value, such as 2.5. Clients may convert values into language-native decimal formats, such as Java&#x27;s [BigDecimal](https://docs.oracle.com/en/java/javase/11/docs/api/java.base/java/math/BigDecimal.html) or Python&#x27;s [decimal.Decimal](https://docs.python.org/3/library/decimal.html). # Percentage of the floating discount.
            &quot;value&quot;: &quot;A String&quot;, # The decimal value, as a string. The string representation consists of an optional sign, `+` (`U+002B`) or `-` (`U+002D`), followed by a sequence of zero or more decimal digits (&quot;the integer&quot;), optionally followed by a fraction, optionally followed by an exponent. An empty string **should** be interpreted as `0`. The fraction consists of a decimal point followed by zero or more decimal digits. The string must contain at least one digit in either the integer or the fraction. The number formed by the sign, the integer and the fraction is referred to as the significand. The exponent consists of the character `e` (`U+0065`) or `E` (`U+0045`) followed by one or more decimal digits. Services **should** normalize decimal values before storing them by: - Removing an explicitly-provided `+` sign (`+2.5` -&gt; `2.5`). - Replacing a zero-length integer value with `0` (`.5` -&gt; `0.5`). - Coercing the exponent character to upper-case, with explicit sign (`2.5e8` -&gt; `2.5E+8`). - Removing an explicitly-provided zero exponent (`2.5E0` -&gt; `2.5`). Services **may** perform additional normalization based on its own needs and the internal decimal implementation selected, such as shifting the decimal point and exponent value together (example: `2.5E-1` &lt;-&gt; `0.25`). Additionally, services **may** preserve trailing zeroes in the fraction to indicate increased precision, but are not required to do so. Note that only the `.` character is supported to divide the integer and the fraction; `,` **should not** be supported regardless of locale. Additionally, thousand separators **should not** be supported. If a service does support them, values **must** be normalized. The ENBF grammar is: DecimalString = &#x27;&#x27; | [Sign] Significand [Exponent]; Sign = &#x27;+&#x27; | &#x27;-&#x27;; Significand = Digits &#x27;.&#x27; | [Digits] &#x27;.&#x27; Digits; Exponent = (&#x27;e&#x27; | &#x27;E&#x27;) [Sign] Digits; Digits = { &#x27;0&#x27; | &#x27;1&#x27; | &#x27;2&#x27; | &#x27;3&#x27; | &#x27;4&#x27; | &#x27;5&#x27; | &#x27;6&#x27; | &#x27;7&#x27; | &#x27;8&#x27; | &#x27;9&#x27; }; Services **should** clearly document the range of supported values, the maximum supported precision (total number of digits), and, if applicable, the scale (number of digits after the decimal point), as well as how it behaves when receiving out-of-bounds values. Services **may** choose to accept values passed as input even when the value has a higher precision or scale than the service supports, and **should** round the value to fit the supported scale. Alternatively, the service **may** error with `400 Bad Request` (`INVALID_ARGUMENT` in gRPC) if precision would be lost. Services **should** error with `400 Bad Request` (`INVALID_ARGUMENT` in gRPC) if the service receives a value outside of the supported range.
          },
          &quot;discountScopeType&quot;: &quot;A String&quot;, # Type of the floating discount scope which indicates the source of the discount. It can have values such as &#x27;unspecified&#x27; and &#x27;sku-group&#x27;.
          &quot;skuGroup&quot;: &quot;A String&quot;, # SKU group where the floating discount comes from.
        },
        &quot;listPriceAsCeiling&quot;: { # Encapsulates a contract feature that the list price (DefaultPrice) will be used for the price if the current list price drops lower than the custom fixed price. Available to new contracts after March 21, 2022. Applies to all fixed price SKUs in the contract, including FixedPrice, FixedDiscount, MigratedPrice, and MergedPrice. # Contract feature that the list price (DefaultPrice) will be used for the price if the current list price drops lower than the custom fixed price. Available to new contracts after March 21, 2022. Applies to all fixed price SKUs in the contract, including FixedPrice, FixedDiscount, MigratedPrice, and MergedPrice.
        },
        &quot;mergedPrice&quot;: { # Encapsulates a price after merging from multiple sources. With merged tiers, each individual tier can be from a different source with different discount types. # Price after merging from multiple sources.
        },
        &quot;migratedPrice&quot;: { # Encapsulates a price migrated from other SKUs. # Price migrated from other SKUs.
          &quot;sourceSku&quot;: &quot;A String&quot;, # Source SKU where the discount is migrated from. Format: billingAccounts/{billing_account}/skus/{sku}
        },
        &quot;type&quot;: &quot;A String&quot;, # Type of the price reason. It can have values such as &#x27;unspecified&#x27;, &#x27;default-price&#x27;, &#x27;fixed-price&#x27;, &#x27;fixed-discount&#x27;, &#x27;floating-discount&#x27;, &#x27;migrated-price&#x27;, &#x27;merged-price&#x27;, &#x27;list-price-as-ceiling&#x27;.
      },
      &quot;rate&quot;: { # Encapsulates a `Rate` price. Billing account SKUs with `Rate` price are offered by pricing tiers. The price have 1 or more rate pricing tiers. # Rate price metadata. Billing account SKUs with `Rate` price are offered by pricing tiers. The price can have 1 or more rate pricing tiers.
        &quot;aggregationInfo&quot;: { # Encapsulates the aggregation information such as aggregation level and interval for a billing account price. # Aggregation info for tiers such as aggregation level and interval.
          &quot;interval&quot;: &quot;A String&quot;, # Interval at which usage is aggregated to compute cost. Example: &quot;MONTHLY&quot; interval indicates that usage is aggregated every month.
          &quot;level&quot;: &quot;A String&quot;, # Level at which usage is aggregated to compute cost. Example: &quot;ACCOUNT&quot; level indicates that usage is aggregated across all projects in a single account.
        },
        &quot;tiers&quot;: [ # All tiers associated with the `Rate` price.
          { # Encapsulates a rate price tier.
            &quot;contractPrice&quot;: { # Represents an amount of money with its currency type. # Negotiated contract price specific for a billing account.
              &quot;currencyCode&quot;: &quot;A String&quot;, # The three-letter currency code defined in ISO 4217.
              &quot;nanos&quot;: 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000.
              &quot;units&quot;: &quot;A String&quot;, # The whole units of the amount. For example if `currencyCode` is `&quot;USD&quot;`, then 1 unit is one US dollar.
            },
            &quot;effectiveDiscountPercent&quot;: { # A representation of a decimal value, such as 2.5. Clients may convert values into language-native decimal formats, such as Java&#x27;s [BigDecimal](https://docs.oracle.com/en/java/javase/11/docs/api/java.base/java/math/BigDecimal.html) or Python&#x27;s [decimal.Decimal](https://docs.python.org/3/library/decimal.html). # Percentage of effective discount calculated using the current list price per pricing tier. Formula used: effective_discount_percent = (list_price - contract_price) / list_price × 100 If list_price and contract_price are zero, this field is the same as `discount_percent` of FixedDiscount and FloatingDiscount. If your contract does NOT have the feature LIST_PRICE_AS_CEILING enabled, the effective_discount_percent can be negative if the SKU has a FixedDiscount and the current list price is lower than the list price on the date of the contract agreement. See the `FixedDiscount.fix_time` on when the discount was set. If you have questions regarding pricing per SKU, contact your Account team for more details.
              &quot;value&quot;: &quot;A String&quot;, # The decimal value, as a string. The string representation consists of an optional sign, `+` (`U+002B`) or `-` (`U+002D`), followed by a sequence of zero or more decimal digits (&quot;the integer&quot;), optionally followed by a fraction, optionally followed by an exponent. An empty string **should** be interpreted as `0`. The fraction consists of a decimal point followed by zero or more decimal digits. The string must contain at least one digit in either the integer or the fraction. The number formed by the sign, the integer and the fraction is referred to as the significand. The exponent consists of the character `e` (`U+0065`) or `E` (`U+0045`) followed by one or more decimal digits. Services **should** normalize decimal values before storing them by: - Removing an explicitly-provided `+` sign (`+2.5` -&gt; `2.5`). - Replacing a zero-length integer value with `0` (`.5` -&gt; `0.5`). - Coercing the exponent character to upper-case, with explicit sign (`2.5e8` -&gt; `2.5E+8`). - Removing an explicitly-provided zero exponent (`2.5E0` -&gt; `2.5`). Services **may** perform additional normalization based on its own needs and the internal decimal implementation selected, such as shifting the decimal point and exponent value together (example: `2.5E-1` &lt;-&gt; `0.25`). Additionally, services **may** preserve trailing zeroes in the fraction to indicate increased precision, but are not required to do so. Note that only the `.` character is supported to divide the integer and the fraction; `,` **should not** be supported regardless of locale. Additionally, thousand separators **should not** be supported. If a service does support them, values **must** be normalized. The ENBF grammar is: DecimalString = &#x27;&#x27; | [Sign] Significand [Exponent]; Sign = &#x27;+&#x27; | &#x27;-&#x27;; Significand = Digits &#x27;.&#x27; | [Digits] &#x27;.&#x27; Digits; Exponent = (&#x27;e&#x27; | &#x27;E&#x27;) [Sign] Digits; Digits = { &#x27;0&#x27; | &#x27;1&#x27; | &#x27;2&#x27; | &#x27;3&#x27; | &#x27;4&#x27; | &#x27;5&#x27; | &#x27;6&#x27; | &#x27;7&#x27; | &#x27;8&#x27; | &#x27;9&#x27; }; Services **should** clearly document the range of supported values, the maximum supported precision (total number of digits), and, if applicable, the scale (number of digits after the decimal point), as well as how it behaves when receiving out-of-bounds values. Services **may** choose to accept values passed as input even when the value has a higher precision or scale than the service supports, and **should** round the value to fit the supported scale. Alternatively, the service **may** error with `400 Bad Request` (`INVALID_ARGUMENT` in gRPC) if precision would be lost. Services **should** error with `400 Bad Request` (`INVALID_ARGUMENT` in gRPC) if the service receives a value outside of the supported range.
            },
            &quot;listPrice&quot;: { # Represents an amount of money with its currency type. # List price of one tier.
              &quot;currencyCode&quot;: &quot;A String&quot;, # The three-letter currency code defined in ISO 4217.
              &quot;nanos&quot;: 42, # Number of nano (10^-9) units of the amount. The value must be between -999,999,999 and +999,999,999 inclusive. If `units` is positive, `nanos` must be positive or zero. If `units` is zero, `nanos` can be positive, zero, or negative. If `units` is negative, `nanos` must be negative or zero. For example $-1.75 is represented as `units`=-1 and `nanos`=-750,000,000.
              &quot;units&quot;: &quot;A String&quot;, # The whole units of the amount. For example if `currencyCode` is `&quot;USD&quot;`, then 1 unit is one US dollar.
            },
            &quot;startAmount&quot;: { # A representation of a decimal value, such as 2.5. Clients may convert values into language-native decimal formats, such as Java&#x27;s [BigDecimal](https://docs.oracle.com/en/java/javase/11/docs/api/java.base/java/math/BigDecimal.html) or Python&#x27;s [decimal.Decimal](https://docs.python.org/3/library/decimal.html). # Lower bound amount for a tier. Tiers 0-100, 100-200 will be represented with two tiers with `start_amount` 0 and 100.
              &quot;value&quot;: &quot;A String&quot;, # The decimal value, as a string. The string representation consists of an optional sign, `+` (`U+002B`) or `-` (`U+002D`), followed by a sequence of zero or more decimal digits (&quot;the integer&quot;), optionally followed by a fraction, optionally followed by an exponent. An empty string **should** be interpreted as `0`. The fraction consists of a decimal point followed by zero or more decimal digits. The string must contain at least one digit in either the integer or the fraction. The number formed by the sign, the integer and the fraction is referred to as the significand. The exponent consists of the character `e` (`U+0065`) or `E` (`U+0045`) followed by one or more decimal digits. Services **should** normalize decimal values before storing them by: - Removing an explicitly-provided `+` sign (`+2.5` -&gt; `2.5`). - Replacing a zero-length integer value with `0` (`.5` -&gt; `0.5`). - Coercing the exponent character to upper-case, with explicit sign (`2.5e8` -&gt; `2.5E+8`). - Removing an explicitly-provided zero exponent (`2.5E0` -&gt; `2.5`). Services **may** perform additional normalization based on its own needs and the internal decimal implementation selected, such as shifting the decimal point and exponent value together (example: `2.5E-1` &lt;-&gt; `0.25`). Additionally, services **may** preserve trailing zeroes in the fraction to indicate increased precision, but are not required to do so. Note that only the `.` character is supported to divide the integer and the fraction; `,` **should not** be supported regardless of locale. Additionally, thousand separators **should not** be supported. If a service does support them, values **must** be normalized. The ENBF grammar is: DecimalString = &#x27;&#x27; | [Sign] Significand [Exponent]; Sign = &#x27;+&#x27; | &#x27;-&#x27;; Significand = Digits &#x27;.&#x27; | [Digits] &#x27;.&#x27; Digits; Exponent = (&#x27;e&#x27; | &#x27;E&#x27;) [Sign] Digits; Digits = { &#x27;0&#x27; | &#x27;1&#x27; | &#x27;2&#x27; | &#x27;3&#x27; | &#x27;4&#x27; | &#x27;5&#x27; | &#x27;6&#x27; | &#x27;7&#x27; | &#x27;8&#x27; | &#x27;9&#x27; }; Services **should** clearly document the range of supported values, the maximum supported precision (total number of digits), and, if applicable, the scale (number of digits after the decimal point), as well as how it behaves when receiving out-of-bounds values. Services **may** choose to accept values passed as input even when the value has a higher precision or scale than the service supports, and **should** round the value to fit the supported scale. Alternatively, the service **may** error with `400 Bad Request` (`INVALID_ARGUMENT` in gRPC) if precision would be lost. Services **should** error with `400 Bad Request` (`INVALID_ARGUMENT` in gRPC) if the service receives a value outside of the supported range.
            },
          },
        ],
        &quot;unitInfo&quot;: { # Encapsulates the unit information for a Rate # Unit info such as name and quantity.
          &quot;unit&quot;: &quot;A String&quot;, # Shorthand for the unit. Example: GiBy.mo.
          &quot;unitDescription&quot;: &quot;A String&quot;, # Human-readable description of the unit. Example: gibibyte month.
          &quot;unitQuantity&quot;: { # A representation of a decimal value, such as 2.5. Clients may convert values into language-native decimal formats, such as Java&#x27;s [BigDecimal](https://docs.oracle.com/en/java/javase/11/docs/api/java.base/java/math/BigDecimal.html) or Python&#x27;s [decimal.Decimal](https://docs.python.org/3/library/decimal.html). # Unit quantity for the tier. Example: if the RateTier price is $1 per 1000000 Bytes, then `unit_quantity` is set to 1000000.
            &quot;value&quot;: &quot;A String&quot;, # The decimal value, as a string. The string representation consists of an optional sign, `+` (`U+002B`) or `-` (`U+002D`), followed by a sequence of zero or more decimal digits (&quot;the integer&quot;), optionally followed by a fraction, optionally followed by an exponent. An empty string **should** be interpreted as `0`. The fraction consists of a decimal point followed by zero or more decimal digits. The string must contain at least one digit in either the integer or the fraction. The number formed by the sign, the integer and the fraction is referred to as the significand. The exponent consists of the character `e` (`U+0065`) or `E` (`U+0045`) followed by one or more decimal digits. Services **should** normalize decimal values before storing them by: - Removing an explicitly-provided `+` sign (`+2.5` -&gt; `2.5`). - Replacing a zero-length integer value with `0` (`.5` -&gt; `0.5`). - Coercing the exponent character to upper-case, with explicit sign (`2.5e8` -&gt; `2.5E+8`). - Removing an explicitly-provided zero exponent (`2.5E0` -&gt; `2.5`). Services **may** perform additional normalization based on its own needs and the internal decimal implementation selected, such as shifting the decimal point and exponent value together (example: `2.5E-1` &lt;-&gt; `0.25`). Additionally, services **may** preserve trailing zeroes in the fraction to indicate increased precision, but are not required to do so. Note that only the `.` character is supported to divide the integer and the fraction; `,` **should not** be supported regardless of locale. Additionally, thousand separators **should not** be supported. If a service does support them, values **must** be normalized. The ENBF grammar is: DecimalString = &#x27;&#x27; | [Sign] Significand [Exponent]; Sign = &#x27;+&#x27; | &#x27;-&#x27;; Significand = Digits &#x27;.&#x27; | [Digits] &#x27;.&#x27; Digits; Exponent = (&#x27;e&#x27; | &#x27;E&#x27;) [Sign] Digits; Digits = { &#x27;0&#x27; | &#x27;1&#x27; | &#x27;2&#x27; | &#x27;3&#x27; | &#x27;4&#x27; | &#x27;5&#x27; | &#x27;6&#x27; | &#x27;7&#x27; | &#x27;8&#x27; | &#x27;9&#x27; }; Services **should** clearly document the range of supported values, the maximum supported precision (total number of digits), and, if applicable, the scale (number of digits after the decimal point), as well as how it behaves when receiving out-of-bounds values. Services **may** choose to accept values passed as input even when the value has a higher precision or scale than the service supports, and **should** round the value to fit the supported scale. Alternatively, the service **may** error with `400 Bad Request` (`INVALID_ARGUMENT` in gRPC) if precision would be lost. Services **should** error with `400 Bad Request` (`INVALID_ARGUMENT` in gRPC) if the service receives a value outside of the supported range.
          },
        },
      },
      &quot;valueType&quot;: &quot;A String&quot;, # Type of the price. The possible values are: [&quot;unspecified&quot;, &quot;rate&quot;].
    },
  ],
  &quot;nextPageToken&quot;: &quot;A String&quot;, # Token that can be sent as `page_token` in the subsequent request to retrieve the next page. If this field is empty, there are no subsequent pages.
}</pre>
</div>

<div class="method">
    <code class="details" id="list_next">list_next()</code>
  <pre>Retrieves the next page of results.

        Args:
          previous_request: The request for the previous page. (required)
          previous_response: The response from the request for the previous page. (required)

        Returns:
          A request object that you can call &#x27;execute()&#x27; on to request the next
          page. Returns None if there are no more items in the collection.
        </pre>
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